多年生植物
镰刀菌
生物
土壤水分
有机质
土壤有机质
植物
微生物种群生物学
农学
园艺
作者
Li Xiang,Mei Wang,Weitao Jiang,Yanfang Wang,Xuesen Chen,Chengmiao Yin,Zhiquan Mao
标识
DOI:10.1016/j.ecoenv.2021.112723
摘要
Perennial tree soil inhibits the growth of replanting apples, but the mechanism that underlies this inhibition is poorly understood. A total of 57 perennial tree soils were selected for the collection of soil samples in the Bohai Bay in May 2018. The severity of apple replant disease (ARD) for each soil was determined by calculating the rate of inhibition of growth replanted apple trees. A high-throughput sequencing analysis of internal transcribed spacer (ITS) was used to determine the soil fungal community. A correlation analysis was used to determine the relationship between the rate of inhibition of apple growth and soil factors. The degree of inhibition of plant growth varied substantially among the 57 soil samples examined. Different perennial tree soils have varying degrees of ARD. There was no significant difference in the composition of fungal community at the phylum level, but the genus level differed substantially. The abundances of Fusarium and Mortierella species and the contents of phloridin in the soil and soil organic matter (SOM) were significantly correlated with ARD severity. Structural equation modeling also emphasized that the degree of occurrence of ARD was directly or indirectly affected by Fusarium , Mortierella , phloridin and SOM. A correlation analysis can only be used as an indicator, and further research is merited to reveal how soil parameters affect ARD. • The degree of apple replant disease varied in different orchards. • The Mortierella and soil organic matter were significantly negatively correlated with apple replant disease. • The Fusarium and phloridzin in the soil significantly positively correlated with apple replant disease. • There were no correlation between HN, AP, AK, pH and apple replant disease.
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